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arxiv: 2602.13805 · v1 · pith:TCE3J5RX · submitted 2026-02-14 · cs.LG · physics.comp-ph

Fast Physics-Driven Untrained Network for Highly Nonlinear Inverse Scattering Problems

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classification cs.LG physics.comp-ph
keywords scatteringinverseoptimizationphysics-drivenreal-timereconstructionsolverunns
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Untrained neural networks (UNNs) offer high-fidelity electromagnetic inverse scattering reconstruction but are computationally limited by high-dimensional spatial-domain optimization. We propose a Real-Time Physics-Driven Fourier-Spectral (PDF) solver that achieves sub-second reconstruction through spectral-domain dimensionality reduction. By expanding induced currents using a truncated Fourier basis, the optimization is confined to a compact low-frequency parameter space supported by scattering measurements. The solver integrates a contraction integral equation (CIE) to mitigate high-contrast nonlinearity and a contrast-compensated operator (CCO) to correct spectral-induced attenuation. Furthermore, a bridge-suppressing loss is formulated to enhance boundary sharpness between adjacent scatterers. Numerical and experimental results demonstrate a 100-fold speedup over state-of-the-art UNNs with robust performance under noise and antenna uncertainties, enabling real-time microwave imaging applications.

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